Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity

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Zeitschriftentitel:	Journal of Applied Physiology
Personen und Körperschaften:	Giesbrecht, G. G., Puddy, A., Ahmed, M., Younes, M., Anthonisen, N. R.
In:	Journal of Applied Physiology, 70, 1991, 4, S. 1770-1774
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	American Physiological Society
Schlagwörter:	Physiology (medical) Physiology

author_facet	Giesbrecht, G. G. Puddy, A. Ahmed, M. Younes, M. Anthonisen, N. R. Giesbrecht, G. G. Puddy, A. Ahmed, M. Younes, M. Anthonisen, N. R.
author	Giesbrecht, G. G. Puddy, A. Ahmed, M. Younes, M. Anthonisen, N. R.
spellingShingle	Giesbrecht, G. G. Puddy, A. Ahmed, M. Younes, M. Anthonisen, N. R. Journal of Applied Physiology Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity Physiology (medical) Physiology
author_sort	giesbrecht, g. g.
spelling	Giesbrecht, G. G. Puddy, A. Ahmed, M. Younes, M. Anthonisen, N. R. 8750-7587 1522-1601 American Physiological Society Physiology (medical) Physiology http://dx.doi.org/10.1152/jappl.1991.70.4.1770 <jats:p> We studied whether exercise endurance under normobaric hypoxia can be enhanced by increasing hypoxic ventilatory sensitivity with almitrine bismesylate (ALM). On both ALM and placebo (PL) days, resting subjects breathed a hypoxic gas mixture (an inspired O2 fraction of 10.4-13.2%), which lowered resting arterial O2 saturation (SaO2) to 80%. After 15 min of rest there was a 3-min warm-up period of exercise at 50 W (light) on a cycle ergometer, followed by a step increase in load to 60% of the previously determined maximum power output with room-air breathing (moderate), which was maintained until exhaustion. With PL, SaO2 decreased rapidly with the onset of exercise and continued to fall slowly during moderate exercise, averaging 71.0 +/- 1.8% (SE) at exhaustion. With ALM, saturation did not differ from PL during air breathing but significantly exceeded SaO2 with PL, by 3.4% during resting hypoxia, by 4.0% at the start of exercise, and by 5.9% at exhaustion. Ventilation was not affected by ALM during air breathing and was slightly, although not significantly, increased during hypoxic rest and exercise. ALM was associated with an increased heart rate during room air breathing but not during hypoxia. Endurance time was 20.6 +/- 1.6 min with ALM and 21.3 +/- 0.9 min with PL. During hypoxic exercise, the potential benefit of greater saturation with ALM is apparently offset by other unidentified factors. </jats:p> Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity Journal of Applied Physiology
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title	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_unstemmed	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_full	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_fullStr	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_full_unstemmed	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_short	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_sort	exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
topic	Physiology (medical) Physiology
url	http://dx.doi.org/10.1152/jappl.1991.70.4.1770
publishDate	1991
physical	1770-1774
description	<jats:p> We studied whether exercise endurance under normobaric hypoxia can be enhanced by increasing hypoxic ventilatory sensitivity with almitrine bismesylate (ALM). On both ALM and placebo (PL) days, resting subjects breathed a hypoxic gas mixture (an inspired O2 fraction of 10.4-13.2%), which lowered resting arterial O2 saturation (SaO2) to 80%. After 15 min of rest there was a 3-min warm-up period of exercise at 50 W (light) on a cycle ergometer, followed by a step increase in load to 60% of the previously determined maximum power output with room-air breathing (moderate), which was maintained until exhaustion. With PL, SaO2 decreased rapidly with the onset of exercise and continued to fall slowly during moderate exercise, averaging 71.0 +/- 1.8% (SE) at exhaustion. With ALM, saturation did not differ from PL during air breathing but significantly exceeded SaO2 with PL, by 3.4% during resting hypoxia, by 4.0% at the start of exercise, and by 5.9% at exhaustion. Ventilation was not affected by ALM during air breathing and was slightly, although not significantly, increased during hypoxic rest and exercise. ALM was associated with an increased heart rate during room air breathing but not during hypoxia. Endurance time was 20.6 +/- 1.6 min with ALM and 21.3 +/- 0.9 min with PL. During hypoxic exercise, the potential benefit of greater saturation with ALM is apparently offset by other unidentified factors. </jats:p>
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author	Giesbrecht, G. G., Puddy, A., Ahmed, M., Younes, M., Anthonisen, N. R.
author_facet	Giesbrecht, G. G., Puddy, A., Ahmed, M., Younes, M., Anthonisen, N. R., Giesbrecht, G. G., Puddy, A., Ahmed, M., Younes, M., Anthonisen, N. R.
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description	<jats:p> We studied whether exercise endurance under normobaric hypoxia can be enhanced by increasing hypoxic ventilatory sensitivity with almitrine bismesylate (ALM). On both ALM and placebo (PL) days, resting subjects breathed a hypoxic gas mixture (an inspired O2 fraction of 10.4-13.2%), which lowered resting arterial O2 saturation (SaO2) to 80%. After 15 min of rest there was a 3-min warm-up period of exercise at 50 W (light) on a cycle ergometer, followed by a step increase in load to 60% of the previously determined maximum power output with room-air breathing (moderate), which was maintained until exhaustion. With PL, SaO2 decreased rapidly with the onset of exercise and continued to fall slowly during moderate exercise, averaging 71.0 +/- 1.8% (SE) at exhaustion. With ALM, saturation did not differ from PL during air breathing but significantly exceeded SaO2 with PL, by 3.4% during resting hypoxia, by 4.0% at the start of exercise, and by 5.9% at exhaustion. Ventilation was not affected by ALM during air breathing and was slightly, although not significantly, increased during hypoxic rest and exercise. ALM was associated with an increased heart rate during room air breathing but not during hypoxia. Endurance time was 20.6 +/- 1.6 min with ALM and 21.3 +/- 0.9 min with PL. During hypoxic exercise, the potential benefit of greater saturation with ALM is apparently offset by other unidentified factors. </jats:p>
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spelling	Giesbrecht, G. G. Puddy, A. Ahmed, M. Younes, M. Anthonisen, N. R. 8750-7587 1522-1601 American Physiological Society Physiology (medical) Physiology http://dx.doi.org/10.1152/jappl.1991.70.4.1770 <jats:p> We studied whether exercise endurance under normobaric hypoxia can be enhanced by increasing hypoxic ventilatory sensitivity with almitrine bismesylate (ALM). On both ALM and placebo (PL) days, resting subjects breathed a hypoxic gas mixture (an inspired O2 fraction of 10.4-13.2%), which lowered resting arterial O2 saturation (SaO2) to 80%. After 15 min of rest there was a 3-min warm-up period of exercise at 50 W (light) on a cycle ergometer, followed by a step increase in load to 60% of the previously determined maximum power output with room-air breathing (moderate), which was maintained until exhaustion. With PL, SaO2 decreased rapidly with the onset of exercise and continued to fall slowly during moderate exercise, averaging 71.0 +/- 1.8% (SE) at exhaustion. With ALM, saturation did not differ from PL during air breathing but significantly exceeded SaO2 with PL, by 3.4% during resting hypoxia, by 4.0% at the start of exercise, and by 5.9% at exhaustion. Ventilation was not affected by ALM during air breathing and was slightly, although not significantly, increased during hypoxic rest and exercise. ALM was associated with an increased heart rate during room air breathing but not during hypoxia. Endurance time was 20.6 +/- 1.6 min with ALM and 21.3 +/- 0.9 min with PL. During hypoxic exercise, the potential benefit of greater saturation with ALM is apparently offset by other unidentified factors. </jats:p> Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity Journal of Applied Physiology
spellingShingle	Giesbrecht, G. G., Puddy, A., Ahmed, M., Younes, M., Anthonisen, N. R., Journal of Applied Physiology, Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity, Physiology (medical), Physiology
title	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_full	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_fullStr	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_full_unstemmed	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_short	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_sort	exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
title_unstemmed	Exercise endurance and arterial desaturation in normobaric hypoxia with increased chemosensitivity
topic	Physiology (medical), Physiology
url	http://dx.doi.org/10.1152/jappl.1991.70.4.1770